tildefriends/src/ssb.tests.c

636 lines
16 KiB
C

#include "ssb.h"
#include "mem.h"
#include "ssb.db.h"
#include "ssb.js.h"
#include "tests.h"
#include "util.js.h"
#include <assert.h>
#include <stdlib.h>
#include <string.h>
#include <sqlite3.h>
#include <time.h>
#include <uv.h>
#include "quickjs-libc.h"
void tf_ssb_test_id_conversion(const tf_test_options_t* options)
{
printf("Testing id conversion.\n");
uint8_t bin[k_id_bin_len] = { 0 };
char str[k_id_base64_len] = { 0 };
const char* k_id = "@bzRTe6hgOII2yZ1keGGoNoQgostjQc830trHc453crY=.ed25519";
(void)bin;
(void)str;
(void)k_id;
bool b = tf_ssb_id_str_to_bin(bin, k_id);
(void)b;
assert(b);
b = tf_ssb_id_bin_to_str(str, sizeof(str), bin);
assert(b);
b = strcmp(str, k_id) == 0;
assert(b);
}
typedef struct _test_t {
tf_ssb_t* ssb0;
tf_ssb_t* ssb1;
tf_ssb_t* ssb2;
int connection_count0;
int connection_count1;
int connection_count2;
int broadcast_count0;
int broadcast_count1;
int broadcast_count2;
} test_t;
static void _ssb_test_connections_changed(tf_ssb_t* ssb, tf_ssb_change_t change, tf_ssb_connection_t* connection, void* user_data)
{
test_t* test = user_data;
int count = 0;
const char** c = tf_ssb_get_connection_ids(ssb);
for (const char** p = c; *p; p++)
{
count++;
}
tf_free(c);
if (ssb == test->ssb0)
{
printf("callback0 change=%d connection=%p\n", change, connection);
test->connection_count0 = count;
}
else if (ssb == test->ssb1)
{
printf("callback1 change=%d connection=%p\n", change, connection);
test->connection_count1 = count;
}
else if (ssb == test->ssb2)
{
printf("callback2 change=%d connection=%p\n", change, connection);
test->connection_count2 = count;
}
printf("conns = %d %d %d\n", test->connection_count0, test->connection_count1, test->connection_count2);
}
typedef struct _count_messages_t
{
tf_ssb_t* ssb;
int count;
} count_messages_t;
static void _count_messages_callback(JSValue row, void* user_data)
{
count_messages_t* count = user_data;
JSContext* context = tf_ssb_get_context(count->ssb);
JS_ToInt32(context, &count->count, JS_GetPropertyStr(context, row, "count"));
}
static int _ssb_test_count_messages(tf_ssb_t* ssb)
{
count_messages_t count = { .ssb = ssb };
tf_ssb_db_visit_query(ssb, "SELECT COUNT(*) AS count FROM messages", JS_UNDEFINED, _count_messages_callback, &count);
return count.count;
}
static void _message_added(tf_ssb_t* ssb, const char* id, void* user_data)
{
++*(int*)user_data;
}
static void _ssb_test_idle(uv_idle_t* idle)
{
tf_ssb_t* ssb = idle->data;
JSRuntime* runtime = JS_GetRuntime(tf_ssb_get_context(ssb));
while (JS_IsJobPending(runtime))
{
JSContext* context = NULL;
int r = JS_ExecutePendingJob(runtime, &context);
JSValue result = JS_GetException(context);
if (context)
{
tf_util_report_error(context, result);
}
if (r < 0)
{
js_std_dump_error(context);
}
else if (r == 0)
{
break;
}
}
}
void tf_ssb_test_ssb(const tf_test_options_t* options)
{
printf("Testing SSB.\n");
sqlite3* db0 = NULL;
sqlite3* db1 = NULL;
int r = sqlite3_open(":memory:", &db0);
(void)r;
assert(r == SQLITE_OK);
r = sqlite3_open(":memory:", &db1);
assert(r == SQLITE_OK);
uv_loop_t loop = { 0 };
uv_loop_init(&loop);
tf_ssb_t* ssb0 = tf_ssb_create(&loop, NULL, db0);
tf_ssb_register(tf_ssb_get_context(ssb0), ssb0);
tf_ssb_t* ssb1 = tf_ssb_create(&loop, NULL, db1);
tf_ssb_register(tf_ssb_get_context(ssb1), ssb1);
uv_idle_t idle0 = { .data = ssb0 };
uv_idle_init(&loop, &idle0);
uv_idle_start(&idle0, _ssb_test_idle);
uv_idle_t idle1 = { .data = ssb1 };
uv_idle_init(&loop, &idle1);
uv_idle_start(&idle1, _ssb_test_idle);
test_t test = {
.ssb0 = ssb0,
.ssb1 = ssb1,
};
tf_ssb_add_connections_changed_callback(ssb0, _ssb_test_connections_changed, NULL, &test);
tf_ssb_add_connections_changed_callback(ssb1, _ssb_test_connections_changed, NULL, &test);
tf_ssb_generate_keys(ssb0);
tf_ssb_generate_keys(ssb1);
char id0[k_id_base64_len] = { 0 };
char id1[k_id_base64_len] = { 0 };
bool b = tf_ssb_whoami(ssb0, id0, sizeof(id0));
(void)b;
assert(b);
b = tf_ssb_whoami(ssb1, id1, sizeof(id1));
assert(b);
printf("ID %s and %s\n", id0, id1);
char blob_id[k_id_base64_len] = { 0 };
const char* k_blob = "Hello, blob!";
b = tf_ssb_db_blob_store(ssb0, (const uint8_t*)k_blob, strlen(k_blob), blob_id, sizeof(blob_id), NULL);
assert(b);
tf_ssb_append_post(ssb0, "Hello, world!");
tf_ssb_append_post(ssb0, "First post.");
JSContext* context = tf_ssb_get_context(ssb0);
JSValue message = JS_NewObject(context);
JS_SetPropertyStr(context, message, "type", JS_NewString(context, "post"));
JS_SetPropertyStr(context, message, "text", JS_NewString(context, "First post."));
JSValue mentions = JS_NewArray(context);
JSValue mention = JS_NewObject(context);
JS_SetPropertyStr(context, mention, "link", JS_NewString(context, blob_id));
JS_SetPropertyUint32(context, mentions, 0, mention);
JS_SetPropertyStr(context, message, "mentions", mentions);
tf_ssb_append_message(ssb0, message);
JS_FreeValue(context, message);
uint8_t* b0;
size_t s0 = 0;
b = tf_ssb_db_blob_get(ssb0, blob_id, &b0, &s0);
assert(b);
assert(s0 == strlen(k_blob));
assert(memcmp(b0, k_blob, strlen(k_blob)) == 0);
tf_free(b0);
b = !tf_ssb_db_blob_get(ssb1, blob_id, NULL, NULL);
assert(b);
tf_ssb_server_open(ssb0, 12347);
uint8_t id0bin[k_id_bin_len];
tf_ssb_id_str_to_bin(id0bin, id0);
tf_ssb_connect(ssb1, "127.0.0.1", 12347, id0bin);
printf("Waiting for connection.\n");
while (test.connection_count0 != 1 ||
test.connection_count1 != 1)
{
uv_run(&loop, UV_RUN_ONCE);
}
tf_ssb_server_close(ssb0);
printf("Waiting for messages.\n");
while (_ssb_test_count_messages(ssb1) < 3)
{
uv_run(&loop, UV_RUN_ONCE);
}
printf("Waiting for blob.\n");
while (!tf_ssb_db_blob_get(ssb1, blob_id, NULL, NULL))
{
uv_run(&loop, UV_RUN_ONCE);
}
uint8_t* b1;
size_t s1 = 0;
b = tf_ssb_db_blob_get(ssb1, blob_id, &b1, &s1);
assert(b);
printf("s1 = %zd sl = %zd\n", s1, strlen(k_blob));
assert(s1 == strlen(k_blob));
assert(memcmp(b1, k_blob, strlen(k_blob)) == 0);
tf_free(b1);
printf("Waiting for message to self.\n");
int count0 = 0;
int count1 = 0;
tf_ssb_add_message_added_callback(ssb0, _message_added, NULL, &count0);
tf_ssb_add_message_added_callback(ssb1, _message_added, NULL, &count1);
tf_ssb_append_post(ssb0, "Message to self.");
while (count0 == 0)
{
uv_run(&loop, UV_RUN_ONCE);
}
tf_ssb_remove_message_added_callback(ssb0, _message_added, &count0);
printf("Waiting for message from other.\n");
while (count1 == 0)
{
uv_run(&loop, UV_RUN_ONCE);
}
tf_ssb_remove_message_added_callback(ssb1, _message_added, &count1);
printf("done\n");
tf_ssb_send_close(ssb1);
uv_close((uv_handle_t*)&idle0, NULL);
uv_close((uv_handle_t*)&idle1, NULL);
uv_run(&loop, UV_RUN_DEFAULT);
tf_ssb_destroy(ssb0);
tf_ssb_destroy(ssb1);
uv_loop_close(&loop);
sqlite3_close(db0);
sqlite3_close(db1);
}
static void _broadcasts_visit(const char* host, const struct sockaddr_in* addr, tf_ssb_connection_t* tunnel, const uint8_t* pub, void* user_data)
{
int* count = user_data;
(*count)++;
}
static void _broadcasts_changed(tf_ssb_t* ssb, void* user_data)
{
int* count = NULL;
test_t* test = user_data;
if (ssb == test->ssb0)
{
count = &test->broadcast_count0;
}
else if (ssb == test->ssb1)
{
count = &test->broadcast_count1;
}
else if (ssb == test->ssb2)
{
count = &test->broadcast_count2;
}
*count = 0;
tf_ssb_visit_broadcasts(ssb, _broadcasts_visit, count);
printf("BROADCASTS %d %d %d\n", test->broadcast_count0, test->broadcast_count1, test->broadcast_count2);
}
void tf_ssb_test_rooms(const tf_test_options_t* options)
{
printf("Testing Rooms.\n");
sqlite3* db0 = NULL;
sqlite3* db1 = NULL;
sqlite3* db2 = NULL;
int r = sqlite3_open(":memory:", &db0);
(void)r;
assert(r == SQLITE_OK);
r = sqlite3_open(":memory:", &db1);
assert(r == SQLITE_OK);
r = sqlite3_open(":memory:", &db2);
assert(r == SQLITE_OK);
uv_loop_t loop = { 0 };
uv_loop_init(&loop);
tf_ssb_t* ssb0 = tf_ssb_create(&loop, NULL, db0);
tf_ssb_register(tf_ssb_get_context(ssb0), ssb0);
tf_ssb_t* ssb1 = tf_ssb_create(&loop, NULL, db1);
tf_ssb_register(tf_ssb_get_context(ssb1), ssb1);
tf_ssb_t* ssb2 = tf_ssb_create(&loop, NULL, db2);
tf_ssb_register(tf_ssb_get_context(ssb2), ssb2);
uv_idle_t idle0 = { .data = ssb0 };
uv_idle_init(&loop, &idle0);
uv_idle_start(&idle0, _ssb_test_idle);
uv_idle_t idle1 = { .data = ssb1 };
uv_idle_init(&loop, &idle1);
uv_idle_start(&idle1, _ssb_test_idle);
uv_idle_t idle2 = { .data = ssb2 };
uv_idle_init(&loop, &idle2);
uv_idle_start(&idle2, _ssb_test_idle);
test_t test =
{
.ssb0 = ssb0,
.ssb1 = ssb1,
.ssb2 = ssb2,
};
tf_ssb_add_connections_changed_callback(ssb0, _ssb_test_connections_changed, NULL, &test);
tf_ssb_add_connections_changed_callback(ssb1, _ssb_test_connections_changed, NULL, &test);
tf_ssb_add_connections_changed_callback(ssb2, _ssb_test_connections_changed, NULL, &test);
tf_ssb_add_broadcasts_changed_callback(ssb0, _broadcasts_changed, NULL, &test);
tf_ssb_add_broadcasts_changed_callback(ssb1, _broadcasts_changed, NULL, &test);
tf_ssb_add_broadcasts_changed_callback(ssb2, _broadcasts_changed, NULL, &test);
tf_ssb_generate_keys(ssb0);
tf_ssb_generate_keys(ssb1);
tf_ssb_generate_keys(ssb2);
char id0[k_id_base64_len] = { 0 };
char id1[k_id_base64_len] = { 0 };
char id2[k_id_base64_len] = { 0 };
bool b = tf_ssb_whoami(ssb0, id0, sizeof(id0));
(void)b;
assert(b);
b = tf_ssb_whoami(ssb1, id1, sizeof(id1));
assert(b);
b = tf_ssb_whoami(ssb2, id2, sizeof(id2));
assert(b);
printf("ID %s, %s, %s\n", id0, id1, id2);
tf_ssb_server_open(ssb0, 12347);
uint8_t id0bin[k_id_bin_len];
tf_ssb_id_str_to_bin(id0bin, id0);
tf_ssb_connect(ssb1, "127.0.0.1", 12347, id0bin);
tf_ssb_connect(ssb2, "127.0.0.1", 12347, id0bin);
printf("Waiting for connection.\n");
while (test.connection_count0 != 2 ||
test.connection_count1 != 1 ||
test.connection_count2 != 1)
{
uv_run(&loop, UV_RUN_ONCE);
}
tf_ssb_server_close(ssb0);
printf("Waiting for broadcasts.\n");
while (test.broadcast_count1 != 1 ||
test.broadcast_count2 != 1)
{
uv_run(&loop, UV_RUN_ONCE);
}
tf_ssb_connection_t* connections[4];
int count = tf_ssb_get_connections(ssb1, connections, 4);
(void)count;
assert(count == 1);
int32_t tunnel_request_number = tf_ssb_connection_next_request_number(connections[0]);
JSContext* context = tf_ssb_get_context(ssb1);
JSValue message = JS_NewObject(context);
JSValue name = JS_NewArray(context);
JS_SetPropertyUint32(context, name, 0, JS_NewString(context, "tunnel"));
JS_SetPropertyUint32(context, name, 1, JS_NewString(context, "connect"));
JS_SetPropertyStr(context, message, "name", name);
JSValue args = JS_NewArray(context);
JSValue arg = JS_NewObject(context);
JS_SetPropertyStr(context, arg, "portal", JS_NewString(context, id0));
JS_SetPropertyStr(context, arg, "target", JS_NewString(context, id2));
JS_SetPropertyUint32(context, args, 0, arg);
JS_SetPropertyStr(context, message, "args", args);
JS_SetPropertyStr(context, message, "type", JS_NewString(context, "duplex"));
tf_ssb_connection_rpc_send_json(
connections[0],
k_ssb_rpc_flag_stream,
tunnel_request_number,
message,
NULL,
NULL,
NULL);
JS_FreeValue(context, message);
tf_ssb_connection_t* tun0 = tf_ssb_connection_tunnel_create(ssb1, id0, tunnel_request_number, id2);
printf("tun0 = %p\n", tun0);
printf("Done.\n");
while (test.connection_count0 != 2 ||
test.connection_count1 != 2 ||
test.connection_count2 != 2)
{
uv_run(&loop, UV_RUN_ONCE);
}
printf("Done.\n");
uv_run(&loop, UV_RUN_NOWAIT);
tf_ssb_connection_close(tun0);
uv_run(&loop, UV_RUN_NOWAIT);
uv_close((uv_handle_t*)&idle0, NULL);
uv_close((uv_handle_t*)&idle1, NULL);
uv_close((uv_handle_t*)&idle2, NULL);
tf_ssb_send_close(ssb0);
tf_ssb_send_close(ssb1);
tf_ssb_send_close(ssb2);
tf_ssb_close_all(ssb0);
tf_ssb_close_all(ssb1);
tf_ssb_close_all(ssb2);
uv_run(&loop, UV_RUN_DEFAULT);
tf_ssb_destroy(ssb0);
tf_ssb_destroy(ssb1);
tf_ssb_destroy(ssb2);
uv_run(&loop, UV_RUN_DEFAULT);
uv_loop_close(&loop);
sqlite3_close(db0);
sqlite3_close(db1);
sqlite3_close(db2);
}
void tf_ssb_test_following(const tf_test_options_t* options)
{
printf("Testing following.\n");
sqlite3* db0 = NULL;
int r = sqlite3_open(":memory:", &db0);
(void)r;
assert(r == SQLITE_OK);
uv_loop_t loop = { 0 };
uv_loop_init(&loop);
tf_ssb_t* ssb0 = tf_ssb_create(&loop, NULL, db0);
tf_ssb_generate_keys(ssb0);
tf_ssb_t* ssb1 = tf_ssb_create(&loop, NULL, db0);
tf_ssb_generate_keys(ssb1);
tf_ssb_t* ssb2 = tf_ssb_create(&loop, NULL, db0);
tf_ssb_generate_keys(ssb2);
char id0[k_id_base64_len] = { 0 };
char id1[k_id_base64_len] = { 0 };
char id2[k_id_base64_len] = { 0 };
tf_ssb_whoami(ssb0, id0, sizeof(id0));
tf_ssb_whoami(ssb1, id1, sizeof(id1));
tf_ssb_whoami(ssb2, id2, sizeof(id2));
JSContext* context = NULL;
JSValue message;
#define FOLLOW(ssb, id, follow) \
context = tf_ssb_get_context(ssb); \
message = JS_NewObject(context); \
JS_SetPropertyStr(context, message, "type", JS_NewString(context, "contact")); \
JS_SetPropertyStr(context, message, "contact", JS_NewString(context, id)); \
JS_SetPropertyStr(context, message, "following", follow ? JS_TRUE : JS_FALSE); \
tf_ssb_append_message(ssb, message); \
JS_FreeValue(context, message); \
context = NULL
#if 1
/* TODO: This test doesn't actually really test anything anymore. */
#define DUMP(id, depth)
#else
#define DUMP(id, depth) \
do \
{ \
printf("following %d:\n", depth); \
const char** tf_ssb_get_following_deep(tf_ssb_t* ssb_param, const char** ids, int depth_param); \
const char** f = tf_ssb_get_following_deep(ssb0, (const char*[]) { id, NULL }, depth); \
for (const char** p = f; p && *p; p++) \
{ \
printf("* %s\n", *p); \
} \
printf("\n"); \
tf_free(f); \
} \
while (0)
#endif
FOLLOW(ssb0, id1, true);
FOLLOW(ssb1, id2, true);
FOLLOW(ssb2, id0, true);
DUMP(id0, 2);
DUMP(id1, 2);
DUMP(id2, 2);
FOLLOW(ssb0, id1, false);
//FOLLOW(ssb0, id1, true);
//FOLLOW(ssb0, id1, true);
DUMP(id0, 1);
DUMP(id1, 2);
//FOLLOW(ssb0, id1, false);
//DUMP(1);
//DUMP(1);
#undef FOLLOW
#undef DUMP
uv_run(&loop, UV_RUN_DEFAULT);
tf_ssb_destroy(ssb0);
tf_ssb_destroy(ssb1);
tf_ssb_destroy(ssb2);
uv_loop_close(&loop);
sqlite3_close(db0);
}
void tf_ssb_test_bench(const tf_test_options_t* options)
{
printf("Testing following.\n");
sqlite3* db0 = NULL;
int r = sqlite3_open(":memory:", &db0);
(void)r;
assert(r == SQLITE_OK);
uv_loop_t loop = { 0 };
uv_loop_init(&loop);
tf_ssb_t* ssb0 = tf_ssb_create(&loop, NULL, db0);
tf_ssb_generate_keys(ssb0);
char id0[k_id_base64_len] = { 0 };
tf_ssb_whoami(ssb0, id0, sizeof(id0));
struct timespec start_time = { 0 };
struct timespec end_time = { 0 };
clock_gettime(CLOCK_REALTIME, &start_time);
const int k_messages = 4096;
for (int i = 0; i < k_messages; i++)
{
tf_ssb_append_post(ssb0, "Hello, world!");
}
clock_gettime(CLOCK_REALTIME, &end_time);
printf("insert = %f seconds\n", (float)(end_time.tv_sec - start_time.tv_sec) + (end_time.tv_nsec - start_time.tv_nsec) / 1e9f);
sqlite3* db1 = NULL;
sqlite3_open(":memory:", &db1);
assert(r == SQLITE_OK);
tf_ssb_t* ssb1 = tf_ssb_create(&loop, NULL, db1);
tf_ssb_generate_keys(ssb1);
uint8_t id0bin[k_id_bin_len];
tf_ssb_id_str_to_bin(id0bin, id0);
uv_idle_t idle0 = { .data = ssb0 };
uv_idle_init(&loop, &idle0);
uv_idle_start(&idle0, _ssb_test_idle);
uv_idle_t idle1 = { .data = ssb1 };
uv_idle_init(&loop, &idle1);
uv_idle_start(&idle1, _ssb_test_idle);
tf_ssb_register(tf_ssb_get_context(ssb0), ssb0);
tf_ssb_register(tf_ssb_get_context(ssb1), ssb1);
tf_ssb_server_open(ssb0, 12347);
tf_ssb_connect(ssb1, "127.0.0.1", 12347, id0bin);
printf("Waiting for messages.\n");
clock_gettime(CLOCK_REALTIME, &start_time);
while (_ssb_test_count_messages(ssb1) < k_messages)
{
uv_run(&loop, UV_RUN_ONCE);
}
clock_gettime(CLOCK_REALTIME, &end_time);
printf("Done.\n");
printf("replicate = %f seconds\n", (float)(end_time.tv_sec - start_time.tv_sec) + (end_time.tv_nsec - start_time.tv_nsec) / 1e9f);
tf_ssb_send_close(ssb1);
tf_ssb_server_close(ssb0);
uv_close((uv_handle_t*)&idle0, NULL);
uv_close((uv_handle_t*)&idle1, NULL);
uv_run(&loop, UV_RUN_DEFAULT);
tf_ssb_destroy(ssb1);
tf_ssb_destroy(ssb0);
uv_loop_close(&loop);
sqlite3_close(db0);
sqlite3_close(db1);
}